Compressible elastomeric spring

We claim: 1. A compressible spring comprising: (a) a substantially solid body defining a central axis and manufactured from an elastomeric material; (b) a substantially solid abutment upstanding axially on one end of said substantially solid body; and (c) a lip disposed on a distal end of said axial abutment in a plane being substantially transverse to said central axis, wherein the compressible spring includes a ridge and wherein said ridge has an annular shape and is disposed axially on an opposite end of said substantially solid body, said annular ridge having a generally triangular cross-section in a plane being substantially parallel to a plane of said central axis, whereby a base of said generally triangular cross-section is disposed on an end surface of said opposite end. 2. A compressible spring comprising: (a) a substantially solid body defining a central axis and manufactured from an elastomeric material; (b) a substantially solid abutment upstanding axially on one end of said substantially solid body; and (c) a lip disposed on a distal end of said axial abutment in a plane being substantially transverse to said central axis, the compressible spring further comprising at least one rigid member, said at least one rigid member including: i. a pair of substantially planar surfaces spaced apart from each other along said central axis to define a thickness of said at least one rigid member, one of said pair of substantially planar surfaces abuttingly engaging an end surface of said one end of said substantially solid body; ii. a central aperture formed through a thickness of said at least one rigid member, said aperture is so sized that said axial abutment is received operatively therewithin; iii. wherein said distal end of said axial abutment extends a predetermined distance beyond an opposite one of said pair of substantially planar surfaces of said at least one rigid member; and iv. wherein a thickness portion of said at least one rigid member is being caged between said one of said end surface of said one end of said substantially solid body and an inner surface of said lip. 3. The compressible spring of claim 2 , wherein said caged thickness portion is disposed planar with a remaining thickness portion of said at least one rigid member. 4. The compressible spring of claim 2 , further including: (a) a plurality of projections upstanding in a predetermined pattern on said one of said pair of substantially planar surfaces of said at least one rigid member; (b) a plurality of apertures, each of said plurality of apertures formed through said thickness of said at least one rigid member and a thickness of a respective one of said plurality of projections and defining in combination, a ring shaped projection; and (c) penetration by each of a plurality of ring shaped projections of said at least one rigid member into a thickness of said substantially solid body. 5. A compressible spring comprising: (a) a substantially solid body defining a central axis and manufactured from an elastomeric material, said substantially solid body including; i. a first axial end of said substantially solid body having a first end surface disposed in a first plane being generally transverse to said central axis, ii. a second axial end of said substantially solid body having a second end surface disposed in a second plane being generally transverse to said central axis, said second end surface spaced apart from said first end surface along said central axis, iii. a thickness of said substantially solid body defined by a distance between said first and second end surfaces along said central axis, and iv. an outwardly curved peripheral surface joining said first and second axial ends; (b) an abutment upstanding axially on one of said first and second end surfaces, said abutment having each of a substantially uniform thickness and substantially uniform diameter throughout; (c) an axial bore formed through said thickness of said substantially solid body and through said thickness of said abutment; and (d) an annular ridge disposed axially on an opposite one of said first and second end surfaces, said annular ridge having a generally triangular cross-section in a plane being substantially parallel to a plane of said central axis, whereby a base of said generally triangular cross-section lies on said opposite one of said first and second end surfaces. 6. A compressible spring comprising: (a) a unitary, one-piece compressible elastomeric body defining a central axis and including: i. a first axial end having an end surface disposed in a first plane being generally transverse to said central axis, ii. a second axial end having an end surface disposed in a second plane being generally transverse to said central axis, said second end spaced apart from said first axial end along said central axis, iii. a thickness of said compressible elastomeric pad defined by an axial distance between said first and second axial ends, iv. an outwardly curved peripheral surface joining said first and second axial ends, v. an abutment upstanding axially on said end surface of one of said first and second axial ends, vi. an axial bore formed through said thickness of said substantially solid body and through said thickness of said abutment, and vii. an annular ridge disposed axially on said end surface of an opposite one of said first and second axial ends, said annular ridge having a generally triangular cross-section in a plane being substantially parallel to a plane of said central axis, whereby a base of said triangular cross-section lies on said end surface of said opposite one of said first and second axial ends; (b) at least one rigid member including: i. a pair of substantially planar surfaces spaced apart from each other along said central axis to define a thickness of said at least one rigid member, one of said pair of substantially planar surfaces abuttingly engaging said end surface of one of said first and second axial ends, ii. a central aperture formed through a thickness of said at least one rigid member, said central aperture is so sized that said axial abutment is received operatively therewithin, wherein a distal end of said axial abutment extends a predetermined distance beyond an opposite one of said pair of substantially planar surfaces of said rigid member, iii. a plurality of projections upstanding in a predetermined pattern on said one of said pair of substantially planar surfaces of said at least one rigid member, iv. a plurality of apertures formed through said thickness of said at least one rigid member and said projections and defining ring shaped projections; and (c) means for securing said compressible elastomeric pad to said at least one rigid member, said securing means including: i. an annular lip disposed on said distal end of said axial abutment in a plane being substantially transverse to said central axis, ii. an annular thickness portion of said at least one rigid member being caged between said one of said end surfaces of said one of said first and second axial ends of said compressible elastomeric pad and an inner surface of said annular lip, and iii. penetration by each of said plurality of ring shaped projections of said at least one rigid member into said thickness of said compressible elastomeric body. 7. The compressible spring, according to claim 6 , wherein said at least one rigid member includes additional plurality of projections upstanding in a predetermined pattern on an opposite one of said pair of substantially planar surfaces of said at least one rigid member and further includes additional plurality of apertures formed through said thickness of said at least one rigid member and said additional plurality of projections and